The aims of this study were 1) to determine the prevalence of Salmonella in clinically ill birds in aviaries in Ankara, Turkey, and 2) to compare conventional culture and polymerase chain reaction (PCR) for detection of Salmonella in feces from clinically ill pet birds. In the study, 185 fecal samples (feces and/or swabs) collected from the pet birds kept in the seven different aviaries in the city of Ankara were investigated for the existence of Salmonella spp. by bacterial isolation and PCR. The conventional isolation and identification methods were performed for Salmonella isolation from fecal cultures. Suspected colonies were confirmed with the Salmonella polyvalent O antiserum and serogrouped with Salmonella group-specific antiserum. PCR was performed after the fecal swabs were incubated for 18 hr in 10 ml of tetrathionate broth. Three (1.63%) out of 185 fecal samples were found to harbor Salmonella spp. by conventional identification tests and were found to belong to serogroup B. Five (2.7%) swab samples were found to harbor Salmonella DNA by PCR tests. As a conclusion, PCR following incubation of clinical samples in pre-enrichment broth seemed to be a fast and practicable method for Salmonella spp. diagnosis when compared to protracted labor-intensive conventional culture techniques.
BackgroundMicrobiota plays an important role in food safety and its alteration poses a serious threat to humans. Comparative microbiome profiling using next-generation sequencing (NGS) enabled the understanding of microbial diversity and similarity between different species. In this study, we used NGS to profile the fecal microbiota of sick human and broiler chickens. A total of 26 fecal samples were collected from severely sick human subjects (n= 13) and broiler chickens (n=13) with similar symptoms.ResultsThe total number of microbial species detected in broiler chickens fecal microbiota was higher than that of humans. Phylum Proteobacteria was the most abundant in both human and broiler chickens fecal microbiota while Tenericutes was found to be least abundant in both species. Phylum Actinobacteria was found only in the human fecal microbiota. In both humans and broiler chickens, E.coli was found to be phylogenetically related suggesting a microbial association between both species.ConclusionNGS based taxonomic profiling revealed the association of microbial dysbiosis with extreme sickness in both humans and broiler chickens. The dominance of phylum Proteobacteria in both the species ascertains their altered gut microbiota. Both human and broiler chickens microbial communities were found to be genetically related indicating horizontal transfer of microbes between the two species.
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